Constant Flow Technology

Useful Pump Automation For Aquaculture

Summary:

By minimizing the speed of a pump to achieve only the required output, significant energy savings can be achieved in a pumping system. Controlling the speed of a pump motor with a variable-frequency drive to maintain output is more efficient than controlling the pump’s flow with a valve. New variable- speed pumps fitted with a small “backpack” variable-frequency drive can maintain a set flow rate even when system operating conditions change upstream.

It’s difficult to sound non-biased in covering new aquaculture technology when it was invented by the company for which you work. However, as a participant in aquaculture research and development for the past 40 years, I have been in a good position to see important new and different technology emerge and be adopted by the industry. Risking the wrath of my colleagues, this column provides a look at a technology I feel holds tremendous promise for various segments of our industry.

Variable Speed Technology

Variable-speed pumps have been available since the invention and mass production of variable-frequency drives for electric motors. Variable-speed pumps can be set at a prespecified speed to deliver the amount of water needed within a system or process at the time they are set. A variable-frequency drive (VFD) is generally wall mounted near the electric motor to control and hold the motor at a specific speed.

When used with a pump, a VFD can provide energy-efficient flow from a pump at varied flow rates. Controlling the speed of the pump motor is more efficient than restricting the pump’s flow with a valve on the outflow side of the pump, where “artificial” head is produced to reduce the flow rate.

By minimizing the required pump speed, significant savings can be achieved in a pumping system especially when pumps are in continuous service, as they are in many aquaculture applications. In fact, reducing a pump’s motor speed by 10% can reduce the energy consumed by the pump motor by 33%. However, variable-speed pumps cannot maintain constant flow when conditions in the system “upstream” of the pump change, such as a filter becoming clogged or a valve setting being changed.

Constant Flow

Have you ever wanted to operate a system at a constant flow rate when the system head downstream of the pump changes over time? For example, when a media filter clogs with waste solids from an aquaculture operation, the pressure builds, and the flow is reduced. In many cases, the operator will either need to constantly change the speed of the pump or run the system at a flow rate higher than needed between backwashes to maintain the predetermined minimum flow rate through the filter.

Operating the system in this manner between backwash cycles wastes energy and leads to significantly higher energy costs. This has been a major problem for the swimming pool industry for years. Pool operators would often oversize pumps to meet the flow demand caused by clogged swimming pool sand filters.

To address this problem, Pentair introduced a variable-speed 3-hp centrifugal pump fitted with a small “backpack” VFD. The operator could program the backpack drive to maintain a set flow rate regardless of the system operating conditions upstream.

Constant Flow Applied To Aquaculture

The integrated drive on this pump has an aquaculture-specific set of menus and features to address the needs of the industry’s unique applications. The pump can be programmed to turn on and off or run at various speeds at various times throughout the day. The drive also has an integrated RS-485 port that allows serial communication with the programmable logic controllers (PLCs) commonly found in aquaculture facilities and aqua-culture-monitoring systems. However, being able to have the confidence that a system will flow at a constant rate under conditions that change is what provides the most useful benefit to aquaculturists. Leveraging the success of this work in the pool industry, Pentair expanded its Constant Flow Technology™ line with an aquaculture-specific pump incorporating the same foundational technology. The new Sparus™ pump is equipped with stainless steel inserts within an otherwise all corrosion-resistant pump. Designed to operate with motor speeds from 1,100 to 3,450 rpm, the pump can be set at any flow from 75 to 530 Lpm.

Media filters such as air-washed bead filters are excellent applications for the use of Constant Flow Technology™. As the filter clogs with waste, the pump speeds up to maintain a constant flow rate through the filter.

Components that add oxygen to the water of fish culture systems can also benefit from constant flow control. Depending on their sizes and configurations, these systems have optimized oxy- gen gas flow and water flow rates at specific pressures.

An example of one configuration is the pressurized packed column shown in Figure 1. A pump with Constant Flow Technology™ and a solenoid gas control valve can be controlled by a PLC with real-time oxygen measurement to provide near-optimum performance, all the while maintaining the minimum flow rates required for the process.

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